1
/
of
1
Elabscience
SKU:E-EL-R0164
Rat CASP10(Caspase 10) ELISA Kit
Rat CASP10(Caspase 10) ELISA Kit
Regular price
$609.00 USD
Regular price
Sale price
$609.00 USD
Unit price
/
per
Shipping calculated at checkout.
Couldn't load pickup availability
Introducing the Rat CASP10 (Caspase 10) ELISA Kit, a cutting-edge solution designed to facilitate accurate and efficient detection of Caspase 10 in rat samples. This high-quality kit is meticulously crafted to meet the demands of researchers and scientists in the field of apoptosis research.
The Rat CASP10 ELISA Kit employs a highly sensitive and specific enzyme-linked immunosorbent assay (ELISA) technique, enabling the quantification of Caspase 10 levels with utmost precision. With its advanced technology, this kit offers a reliable and reproducible platform for the measurement of Caspase 10 in various rat biological samples, including serum, plasma, and tissue lysates.
This comprehensive kit includes all the necessary components, meticulously optimized and validated, to ensure optimal performance and accurate results. The provided microplate is pre-coated with a specific antibody against rat Caspase 10, ensuring high affinity and specificity for the target protein. The kit also includes standards, controls, and reagents required for sample preparation, detection, and analysis.
The Rat CASP10 ELISA Kit boasts a wide dynamic range, allowing for the quantification of Caspase 10 within a broad concentration range. This feature enables researchers to accurately measure both low and high levels of Caspase 10 in rat samples, facilitating a comprehensive understanding of its role in apoptosis pathways.
With its user-friendly protocol and straightforward instructions, this ELISA kit offers ease of use and convenience, making it suitable for both experienced researchers and newcomers in the field. The assay procedure is simple, requiring minimal hands-on time, and can be completed within a short timeframe.
In summary, the Rat CASP10 ELISA Kit is a state-of-the-art tool that empowers researchers to delve into the intricate mechanisms of apoptosis by accurately quantifying Caspase 10 levels in rat samples. Its exceptional sensitivity, specificity, and ease of use make it an indispensable asset for any laboratory engaged in apoptosis research.
The Rat CASP10 ELISA Kit employs a highly sensitive and specific enzyme-linked immunosorbent assay (ELISA) technique, enabling the quantification of Caspase 10 levels with utmost precision. With its advanced technology, this kit offers a reliable and reproducible platform for the measurement of Caspase 10 in various rat biological samples, including serum, plasma, and tissue lysates.
This comprehensive kit includes all the necessary components, meticulously optimized and validated, to ensure optimal performance and accurate results. The provided microplate is pre-coated with a specific antibody against rat Caspase 10, ensuring high affinity and specificity for the target protein. The kit also includes standards, controls, and reagents required for sample preparation, detection, and analysis.
The Rat CASP10 ELISA Kit boasts a wide dynamic range, allowing for the quantification of Caspase 10 within a broad concentration range. This feature enables researchers to accurately measure both low and high levels of Caspase 10 in rat samples, facilitating a comprehensive understanding of its role in apoptosis pathways.
With its user-friendly protocol and straightforward instructions, this ELISA kit offers ease of use and convenience, making it suitable for both experienced researchers and newcomers in the field. The assay procedure is simple, requiring minimal hands-on time, and can be completed within a short timeframe.
In summary, the Rat CASP10 ELISA Kit is a state-of-the-art tool that empowers researchers to delve into the intricate mechanisms of apoptosis by accurately quantifying Caspase 10 levels in rat samples. Its exceptional sensitivity, specificity, and ease of use make it an indispensable asset for any laboratory engaged in apoptosis research.
Share
